# Zero Factorial Returning 1 Recursively

How can I get this recursive method to return `1` on calling `0!` without testing for a base case, that is without doing an `if-else` for 0 and 1.

``````public static long f( number ){
if ( number <= 1 ){ // test for base case
return 1; // base cases: 0! = 1 and 1! = 1
}
else{ return number * f( number - 1 ); }
}
``````

I don't want to check for base cases. Is this possible?

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You're always going to need a base-case. So what's the problem? –  Oli Charlesworth Oct 27 '11 at 15:18
you should avoid the recursive implementation of factorial anyway because the stack overhead is very expensive compared to the loop overhead. if you would be in a pure functional language you'd still be stuck with defining the base case as f(0) = 1. –  Alex Oct 27 '11 at 15:19
If you mean no if-else statement you can use a conditional expression: `return number <= 1 ? 1 : number * f*(number - 1)` but you do have to test. :) –  Ray Toal Oct 27 '11 at 15:20
@Alex - the chances are that performance is not relevant to what the OP is doing. –  Stephen C Oct 27 '11 at 15:21
@Alex - and I wanted to point out that a less performant implementation is not necessarily inferior. "Beauty" is beside the point. The important issues are whether the code is maintainable and whether it works as required. Performance should only be a primary focus (e.g. at the cost of readability) if it is a real requirement. (Granted, we are quibbling - neither performance or readability are real concerns for `factorial(long)`. But in non-trivial cases it matters.) –  Stephen C Oct 27 '11 at 22:22

Using an if-else or `? :` is the best solution. I.e. anything els eis likely to be worse.

``````public static long f(int n){
try {
return 0 / n + n * f(n-1);
} catch(ArithmeticException ae) {
return 1;
}
}
``````
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It does feel worth noting for the benefit of the OP that this is still doing a base check, its just checking by doing `0/n` and catching the exception when n = 0. I say this mainly because I worry that this got the accepted answer (no offence, Peter). –  Chris Oct 27 '11 at 16:42
@Chris I know that. –  Mob Oct 27 '11 at 16:46
@Mob: cool. I assumed the prohibition was on base checks entirely rather than just on using if/else for them. –  Chris Oct 27 '11 at 16:59
This answer is only useful for interviewers who think they are being smart. ;) –  Peter Lawrey Oct 27 '11 at 21:17

Every recursive function needs a termination condition that has to be explicitly checked for. If there was none, it would run forever. So no, it is not possible to omit that base case check

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You only need check the case of `0` (and for integrity, less than 0 as well) although you need a base case otherwise you'll just run in an infinite loop (or until you hit a stack overflow). You can shorten the code though:

``````public static long f(int n){
if (n<0) throw new InvalidParameterException();
return n == 0 ? 1 : n * f(n-1);
}
``````
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Well, the base case as you call it is the condition to stop the recursion... How do you want to stop recursion without test?

On the other hand, iterative version should be faster.

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I don't want to check for base cases. Is this possible?

No, it is not possible. You have to test for the base case otherwise the algorithm won't terminate.

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You always need base-case checking for recursion to make it finite. BTW, base-case for 0 is in factorial definition.

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Define an array (index 0 to 21) of functions. Each function takes a parameter `n`. The function at index 0 returns 1 for any `n`, all others return `n` times the return value of the function at index `n-1`. Start with calling the function at index `n`. No if-else, no check for anything.
An array size of 21 is enough, because at `21!` the given return type `long` (64bit) overflows and the result is undefined anyway. If you want to avoid the OutOfBound exception, you can add a wrapper that calls the function with `min (n, 21)`.